Influence of Wet Film Thickness on the Functional Applications of Biopolymers in Paper Conservation

IF 2.5 Q3 CHEMISTRY, PHYSICAL Colloids and Interfaces Pub Date : 2023-05-30 DOI:10.3390/colloids7020043

Gabriela Aleksić, T. Cigula, Marina Vukoje, Katarina Itrić Ivanda

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Abstract

In heritage conservation, paper deterioration can be slowed down by controlling the environmental conditions surrounding heritage objects and stabilizing the materials these objects are made of. As conservation materials can also cause optical, chemical, and physical changes in the object, their application should be safe, minimalistic, and purposeful. This paper aimed to observe the functional applications of three biopolymers used in paper conservation. For that purpose, a model paper was coated with methylcellulose (MC), cellulose nanocrystals (CNCs), and wheat starch (WSP) using different wet film deposits. The prepared samples were characterized by determining their physical, optical, and surface properties. The results show that changes in the wet film deposit thickness influenced paper properties. With CNCs, the increase has caused a drastic change of colour properties, with MC hydrophobicity increased and with WSP grammage and thickness increased. All coatings (except CNC24) have contributed to the preservation of the colour properties of the paper from the damage caused by thermal ageing.

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湿膜厚度对生物聚合物在纸张保护中的功能应用的影响

在文物保护中，通过控制文物周围的环境条件，稳定文物的制作材料，可以减缓纸张的变质。由于保护材料也会引起物体的光学、化学和物理变化，因此它们的应用应该是安全的、简约的和有目的的。本文旨在观察三种生物聚合物在纸张保存中的功能应用。为此，在模型纸上涂上甲基纤维素(MC)、纤维素纳米晶体(cnc)和小麦淀粉(WSP)，使用不同的湿膜沉积。制备的样品通过测定其物理、光学和表面性质来表征。结果表明，湿膜厚度的变化会影响纸张的性能。随着cnc的增加，颜色性质发生了巨大的变化，MC疏水性增加，WSP的克重和厚度增加。所有涂层(CNC24除外)都有助于保护纸张的颜色特性，使其免受热老化造成的损害。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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